Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation

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Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation. / Baig, Sonia; Shabeer, Muhammad; Parvaresh Rizi, Ehsan; Agarwal, Madhur; Lee, Michelle H; Ooi, Delicia Shu Qin; Chia, Chelsea; Aung, Nweni; Ng, Geelyn; Teo, Yvonne; Chhay, Vanna; Magkos, Faidon; Vidal-Puig, Antonio; Seet, Raymond C S; Toh, Sue-Anne.

I: B M J Open Diabetes Research & Care, Bind 8, Nr. 1, e000945, 2020.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Baig, S, Shabeer, M, Parvaresh Rizi, E, Agarwal, M, Lee, MH, Ooi, DSQ, Chia, C, Aung, N, Ng, G, Teo, Y, Chhay, V, Magkos, F, Vidal-Puig, A, Seet, RCS & Toh, S-A 2020, 'Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation', B M J Open Diabetes Research & Care, bind 8, nr. 1, e000945. https://doi.org/10.1136/bmjdrc-2019-000945

APA

Baig, S., Shabeer, M., Parvaresh Rizi, E., Agarwal, M., Lee, M. H., Ooi, D. S. Q., Chia, C., Aung, N., Ng, G., Teo, Y., Chhay, V., Magkos, F., Vidal-Puig, A., Seet, R. C. S., & Toh, S-A. (2020). Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation. B M J Open Diabetes Research & Care, 8(1), [e000945]. https://doi.org/10.1136/bmjdrc-2019-000945

Vancouver

Baig S, Shabeer M, Parvaresh Rizi E, Agarwal M, Lee MH, Ooi DSQ o.a. Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation. B M J Open Diabetes Research & Care. 2020;8(1). e000945. https://doi.org/10.1136/bmjdrc-2019-000945

Author

Baig, Sonia ; Shabeer, Muhammad ; Parvaresh Rizi, Ehsan ; Agarwal, Madhur ; Lee, Michelle H ; Ooi, Delicia Shu Qin ; Chia, Chelsea ; Aung, Nweni ; Ng, Geelyn ; Teo, Yvonne ; Chhay, Vanna ; Magkos, Faidon ; Vidal-Puig, Antonio ; Seet, Raymond C S ; Toh, Sue-Anne. / Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation. I: B M J Open Diabetes Research & Care. 2020 ; Bind 8, Nr. 1.

Bibtex

@article{c3ec60bfb1254462b0d6cea1c41fadf7,

title = "Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation",

abstract = "Introduction and Objective: Heredity of type 2 diabetes mellitus (T2DM) is associated with greater risk for developing T2DM. Thus, individuals who have a first-degree relative with T2DM (FDRT) provide a natural model to study factors of susceptibility towards development of T2DM, which are poorly understood. Emerging key players in T2DM pathophysiology such as adverse oxidative stress and inflammatory responses could be among possible mechanisms that predispose FDRTs to develop T2DM. Here, we aimed to examine the role of oxidative stress and inflammatory responses as mediators of this excess risk by studying dynamic postprandial responses in FDRTs.Research design and Methods: In this open-label case-control study, we recruited normoglycemic men with (n=9) or without (n=9) a family history of T2DM. We assessed plasma glucose, insulin, lipid profile, cytokines and F2-isoprostanes, expression levels of oxidative and inflammatory genes/proteins in circulating mononuclear cells (MNC), myotubes and adipocytes at baseline (fasting state), and after consumption of a carbohydrate-rich liquid meal or insulin stimulation.Results: Postprandial glucose and insulin responses were not different between groups. Expression of oxidant transcription factor NRF2 protein (p<0.05 for myotubes) and gene (pgroup=0.002, ptime×group=0.016), along with its target genes TXNRD1 (pgroup=0.004, ptime×group=0.007), GPX3 (pgroup=0.011, ptime×group=0.019) and SOD-1 (pgroup=0.046 and ptime×group=0.191) was upregulated in FDRT-derived MNC after meal ingestion or insulin stimulation. Synergistically, expression of target genes of inflammatory transcription factor nuclear factor kappa B such as tumor necrosis factor alpha (pgroup=0.001, ptime×group=0.007) was greater in FDRT-derived MNC than in non-FDRT-derived MNC after meal ingestion or insulin stimulation.Conclusions: Our findings shed light on how heredity of T2DM confers increased susceptibility to oxidative stress and inflammation. This could provide early insights into the underlying mechanisms and future risk of FDRTs for developing T2DM and its associated complications.",

author = "Sonia Baig and Muhammad Shabeer and {Parvaresh Rizi}, Ehsan and Madhur Agarwal and Lee, {Michelle H} and Ooi, {Delicia Shu Qin} and Chelsea Chia and Nweni Aung and Geelyn Ng and Yvonne Teo and Vanna Chhay and Faidon Magkos and Antonio Vidal-Puig and Seet, {Raymond C S} and Sue-Anne Toh",

note = "{\textcopyright} Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.",

year = "2020",

doi = "10.1136/bmjdrc-2019-000945",

language = "English",

volume = "8",

journal = "B M J Open Diabetes Research & Care",

issn = "2052-4897",

publisher = "B M J Group",

number = "1",

}

RIS

TY - JOUR

T1 - Heredity of type 2 diabetes confers increased susceptibility to oxidative stress and inflammation

AU - Baig, Sonia

AU - Shabeer, Muhammad

AU - Parvaresh Rizi, Ehsan

AU - Agarwal, Madhur

AU - Lee, Michelle H

AU - Ooi, Delicia Shu Qin

AU - Chia, Chelsea

AU - Aung, Nweni

AU - Ng, Geelyn

AU - Teo, Yvonne

AU - Chhay, Vanna

AU - Magkos, Faidon

AU - Vidal-Puig, Antonio

AU - Seet, Raymond C S

AU - Toh, Sue-Anne

PY - 2020

Y1 - 2020

N2 - Introduction and Objective: Heredity of type 2 diabetes mellitus (T2DM) is associated with greater risk for developing T2DM. Thus, individuals who have a first-degree relative with T2DM (FDRT) provide a natural model to study factors of susceptibility towards development of T2DM, which are poorly understood. Emerging key players in T2DM pathophysiology such as adverse oxidative stress and inflammatory responses could be among possible mechanisms that predispose FDRTs to develop T2DM. Here, we aimed to examine the role of oxidative stress and inflammatory responses as mediators of this excess risk by studying dynamic postprandial responses in FDRTs.Research design and Methods: In this open-label case-control study, we recruited normoglycemic men with (n=9) or without (n=9) a family history of T2DM. We assessed plasma glucose, insulin, lipid profile, cytokines and F2-isoprostanes, expression levels of oxidative and inflammatory genes/proteins in circulating mononuclear cells (MNC), myotubes and adipocytes at baseline (fasting state), and after consumption of a carbohydrate-rich liquid meal or insulin stimulation.Results: Postprandial glucose and insulin responses were not different between groups. Expression of oxidant transcription factor NRF2 protein (p<0.05 for myotubes) and gene (pgroup=0.002, ptime×group=0.016), along with its target genes TXNRD1 (pgroup=0.004, ptime×group=0.007), GPX3 (pgroup=0.011, ptime×group=0.019) and SOD-1 (pgroup=0.046 and ptime×group=0.191) was upregulated in FDRT-derived MNC after meal ingestion or insulin stimulation. Synergistically, expression of target genes of inflammatory transcription factor nuclear factor kappa B such as tumor necrosis factor alpha (pgroup=0.001, ptime×group=0.007) was greater in FDRT-derived MNC than in non-FDRT-derived MNC after meal ingestion or insulin stimulation.Conclusions: Our findings shed light on how heredity of T2DM confers increased susceptibility to oxidative stress and inflammation. This could provide early insights into the underlying mechanisms and future risk of FDRTs for developing T2DM and its associated complications.

AB - Introduction and Objective: Heredity of type 2 diabetes mellitus (T2DM) is associated with greater risk for developing T2DM. Thus, individuals who have a first-degree relative with T2DM (FDRT) provide a natural model to study factors of susceptibility towards development of T2DM, which are poorly understood. Emerging key players in T2DM pathophysiology such as adverse oxidative stress and inflammatory responses could be among possible mechanisms that predispose FDRTs to develop T2DM. Here, we aimed to examine the role of oxidative stress and inflammatory responses as mediators of this excess risk by studying dynamic postprandial responses in FDRTs.Research design and Methods: In this open-label case-control study, we recruited normoglycemic men with (n=9) or without (n=9) a family history of T2DM. We assessed plasma glucose, insulin, lipid profile, cytokines and F2-isoprostanes, expression levels of oxidative and inflammatory genes/proteins in circulating mononuclear cells (MNC), myotubes and adipocytes at baseline (fasting state), and after consumption of a carbohydrate-rich liquid meal or insulin stimulation.Results: Postprandial glucose and insulin responses were not different between groups. Expression of oxidant transcription factor NRF2 protein (p<0.05 for myotubes) and gene (pgroup=0.002, ptime×group=0.016), along with its target genes TXNRD1 (pgroup=0.004, ptime×group=0.007), GPX3 (pgroup=0.011, ptime×group=0.019) and SOD-1 (pgroup=0.046 and ptime×group=0.191) was upregulated in FDRT-derived MNC after meal ingestion or insulin stimulation. Synergistically, expression of target genes of inflammatory transcription factor nuclear factor kappa B such as tumor necrosis factor alpha (pgroup=0.001, ptime×group=0.007) was greater in FDRT-derived MNC than in non-FDRT-derived MNC after meal ingestion or insulin stimulation.Conclusions: Our findings shed light on how heredity of T2DM confers increased susceptibility to oxidative stress and inflammation. This could provide early insights into the underlying mechanisms and future risk of FDRTs for developing T2DM and its associated complications.

U2 - 10.1136/bmjdrc-2019-000945

DO - 10.1136/bmjdrc-2019-000945

M3 - Journal article

C2 - 32049633

VL - 8

JO - B M J Open Diabetes Research & Care

JF - B M J Open Diabetes Research & Care

SN - 2052-4897

IS - 1

M1 - e000945

ER -

ID: 237664338